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I am iterating over an STL vector and reading values from it. There is another thread which can make changes to this vector. Now, if the other thread inserts or removes and element from the vector, it invalidates the iterator. There is no use of locks involved. Does my choice of accessing the container through indexes(Approach 1) in place of iterators(Approach 2) make it thread safe? What about performance?

struct A{int i; int j;};

Approach 1:

   size_t s = v.size();//v contains pointers to objects of type A
    for(size_t i = 0; i < s; ++i)
         A* ptr = v[i];

Approach 2:

std::vector<A*>::iterator begin =  v.begin();
std::vector<A*>::iterator end =  v.end();
for(std::vector<A*>::iterator it = begin; it != end; ++it)
     A* ptr = *it;
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up vote 3 down vote accepted

OP "Does my choice of accessing the container through indexes(Approach 1) in place of iterators(Approach 2) make it thread safe?"

No, neither approach is thread safe once you start writing to your data structure.

Therefore you will need to serialize access to your data structure.

To save you a lot of time and frustration there a lot of ready-rolled solutions e.g.

Intel Threading Building Blocks (TBB) which comes with thread safe containers such as concurrent_vector.


A concurrent_vector is a container with the following features:

  • Random access by index. The index of the first element is zero.
  • Multiple threads can grow the container and append new elements concurrently.
  • Growing the container does not invalidate existing iterators or indices.*

OP "What about performance?"

Not knowable. Different performance on different systems with different compilers but not known to be large enough to influence your choices.

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The thread-safety guarantees for standard library containers are very straight forward (these rules were added in C++ 2011 but essentially all current library implementations conform to these requirements and impose the corresponding restrictions):

  1. it is OK to have multiple concurrent readers
  2. if there is one thread modifying a container there shall be no other thread accessing (reading or writing) it
  3. the requirements are per container object

Effectively, this means that you need to use some mechanism external to the container to guarantee that a container accessed from multiple threads is handled correctly. For example, you can use a mutex or a readerwriter lock. Of course, most of the time containers are accessed only from one thread and things work just fine without any locking.

Without using explict locks you will cause data races and the behavior is undefined, independent of whether you use indices or iterators.

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Could you comment on performance of Approach1 vs Approach2? – sank May 13 '12 at 4:04
Which one is faster? One of them. It will change with platforms, compilers, versions of compilers, compiler flags, and possibly the phase of the moon. You'd need to profile. It is worth noting that the choice of using indices vs. iterators is probably marginal compared to the locality of the objects being accessed. – Dietmar Kühl May 13 '12 at 6:55

No. STL containers are not thread safe.

You should provide exclusive access to each thread(the one that removes/the one that adds), while they're accessing the vector. Even when using indexes, you might be removing the i-th elemenet, making the pointer you had retrieved, invalid.

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+1 Nothing in the C/C++ standlard libraries are to be considered thread safe. POSIX defined functions are defined as thread-safe however. – sj755 May 13 '12 at 3:08
@seljuq70: your statement is wrong. It was true prior to the release of the most recent stnadards updates but both C and C++ provide specific thread-safety guarantees. They may not be what you might want but that doesn't mean that the library constructs are not thread safe. The various classes are indeed no monitors (in most cases) which seems to be what many people misconstruct as being thread safe. – Dietmar Kühl May 13 '12 at 3:41
@DietmarKühl After looking through my notes, it seems you are absolutely right. Almost all system and library functions are considered thread safe. Also, I was wrong about all POSIX functions being threads safe. For example, readdir and strerror are not defined as thread-safe (although I assume they can be). – sj755 May 13 '12 at 21:49

Could your algorithm work with a fixed size array?

Reason I ask is that the only way, logically, to have multiple threads modifying (most kinds of) container in a thread-safe, lock-free way is to make the container itself invariant. That means the CONTAINER doesn't ever change within the threads, just the elements within it. Think of the difference between messing with the insides of boxcars on a train, vs. actually adding & removing entire boxcars FROM that train as its moving down the tracks. Even meddling with the elements is only safe if your operations on that data observe certain constraints.

Good news is that locks are not always the end of the world. If multiple execution contexts (threads, programs, etc.) can hit the same object simultaneously, they're often the only solution anyway.

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